SU1058572A1 - Extractor - Google Patents

Description

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2. The extractor according to claim 1, characterized in that the screw cuts on the shaft are made in height

with alternation of right - left, left - right directions.

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The invention relates to chemical technology and can be used in extraction processes for liquid-solid or liquid-liquid systems, which are widely used in the chemical, food and other industries.

Known extractor, comprising; housing with perforated plates reversing shaft with multidirectional screw cuts, covered by nuts, branch pipes for input and output of phases 1.

The closest in technical essence and the achieved result to the invention is an apparatus., Comprising a housing, a vertical reversible shaft with screw cuts in an alternating sequence of right and left directions, nuts with brackets fixed on them and perforated plates installed symmetrically to the shaft and connected to a hinge among themselves and with brackets -. . ; .

The disadvantage of the known devices | is a relatively high resistance of the contacting phases, which increases the energy consumption for the implementation of the mass transfer process and reduces the performance of the PP arata.

The purpose of the invention is to increase productivity and reduce energy consumption for the implementation of the mass transfer process by reducing the hydraulic resistance of the internal devices of the apparatus to the contacting phases.

The goal is achieved by the fact that, in an apparatus containing a vertical body, a reversing shaft with multidirectional screw cuts covered by nuts, perforated plates, hinge hangers at peripheral ends connected to perforated plates, the inlet and outlet pipes of the phases, hangers are connected to the nuts with hinges, and each perforated plate is connected to the peripheral ends of the base mounted on a series of nuts with differently directed screw cuts.

At the same time, the screw threads on the shaft are made in height with alternation

right - left, left - right directions.-

With this constructive design of the extractor, the flow of the contacting phases is alternately clamped by vertical perforated plates connected to two nuts covering the divergent threads, thus forming sections, the vertical arrangement of the perforated plates allowing the apparatus to have a large free cross section and, consequently, low hydraulic resistance. .

FIG. 1 shows schematically an extractor, a general view f in FIG. 2, section A-A in FIG. one.

The extractor consists of a housing 1, inside which is installed a reversible vertical shaft 2 with screw cuts 3 and 4, made according to the alternating right-left left-right direction, covered by nuts 5 and b, connected by hinges 7 with twin hangers 8, which, when connected, The 9 peripheral ends are connected to the vertical perforated plates 10, the supply nozzles 11 and the input of the 12th heavy phase and the supply nozzles 13 and the output 14 of the light phase. The extractor works as follows.

The solid phase is continuously supplied from the top of the apparatus through the nozzle 11 into the volume between the vertical perforated plates 10. The easy phase of the countercurrent heavy phase is continuously fed from the bottom of the apparatus through the nozzle 13.

Suppose that in the initial position of the apparatus, the nuts 5, which enclose the screw thread 3 with the right thread, occupy the upper polish and the nuts 6, which enclose the screw thread 4 with the left thread, occupy the lower position.

When the vertical shaft 2 rotates in one direction (for example, to the right), the nut b, covering the screw thread 4 with the left thread on the upper section B |, rises, pulling the pair of suspensions 8, which, turning the nuts 7 and the hinges 9, into joints peripheral ends of the suspensions 8 with vertical

perforated plate 10, occupy a horizontal position.

Simultaneously, the nut 5, covering the screw thread. 3. With a right-handed thread, it lowers, pulling behind itself paired suspensions 8, which, turning 7 nuts 5 and 7 hinges 9, connect the peripheral parts of the suspensions 8 to the vertical perforated plate 10, also take a horizontal position (i.e. The elements of section B occupy the position shown in Fig. 1 by section C).

During the transition of the suspensions 8 to the horizontal position, the vertical perforated plates 10 go to the periphery of the apparatus, imposing pulsations on the two-phase flow, closed-out. between body 1 and plates 10.

On the downstream section B, at the same time, the nut 5, which encloses the screw thread 3 with the right-hand thread, is lowered, pulling along the pair, suspensions 8, which are twisting. in the hinge 7, the nuts 5 and in the hinges 9 connecting the peripheral ends of the suspensions 8 to the vertical perforated plate 10, take an inclined position.

Nut 6 spanning left-handed screw thread, lifting up, pulls the pair of suspensions

8, which, turning in the hinges 7 nuts biv hinges 9 connecting the peripheral ends of the suspensions 8 to the vertical perforated plate 10, also occupy an inclined position (i.e., as shown in Fig. 1, section B) :. At the same time, the vertical plates 10 move from the periphery of the apparatus to the center, imposing a pulsation on the two-phase

0 stream enclosed between the plates 10. Next, the light phase. Exits from the apparatus through the nozzle 14, and the same through the nozzle 12.

When rotating the vertical shaft

5 2 in the other direction (for example, to the left) on the section B, the perforated plates 10 approach each other (move.: C to the center), and on section B, they are removed. from each other (move to

Q periphery).

Thus, the proposed device / rat significantly increases productivity and reduces energy consumption for the implementation of mass transfer process.

T: The technical and economical advantages of the proposed invention in comparison with the basic object consist in increasing the productivity of the apparatus and reducing the energy consumption for dissolving the mass transfer process by reducing the hydraulic resistance of the internal devices of the apparatus to the contacting phases.

Claims (1)

1. EXTRACTOR, comprising a vertical housing, a reversing shaft with multidirectional screw threads, covered with nuts, perforated plates, pendants with hinges at the peripheral ends, connected to perforated plates, input and output branch pipes, characterized in that, in order to increase productivity and reduce energy consumption for the implementation of the mass transfer process, the suspensions are connected to the nuts using hinges, and each perforated plate is connected to the peripheral ends of the suspensions mounted on a row ohm nuts arranged with multidirectional vintovy- _β .2. Extractor by π. 1, different. the fact that the screw cuts on the shaft are made in height with alternating right - left, left - right directions.